Enhanced vibration energy harvesting from coupled pendulums through inertial amplifiers

Achieving higher power output across a broader frequency spectrum presents a significant challenge for vibration energy harvesters aimed at powering low-powered devices from ambient sources. This study introduces the novel concept of employing inertial amplifiers to couple mistuned pendulum electrom...

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Veröffentlicht in:	Smart materials and structures 2024-10, Vol.33 (10), p.10
Hauptverfasser:	Kattimani, R S, Malaji, P V, Chappar, S S, Adhikari, S
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Sprache:	eng
Schlagworte:	coupling electromagnetic energy harvesting inertial amplifier pendulums
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creator	Kattimani, R S Malaji, P V Chappar, S S Adhikari, S
description	Achieving higher power output across a broader frequency spectrum presents a significant challenge for vibration energy harvesters aimed at powering low-powered devices from ambient sources. This study introduces the novel concept of employing inertial amplifiers to couple mistuned pendulum electromagnetic harvesters for enhanced energy harvesting performance. A mathematical model elucidating the inertial amplifier mechanism is developed, and analytical results are compared against conventional uncoupled harvesters. Experimental studies demonstrated up to 1.8 times higher power output and a 2-fold increase in operational frequency bandwidth compared to uncoupled harvesters when employing inertial amplifier coupling. The proposed inertially coupled harvester design offers a powerful solution to significantly improve energy transduction levels and extend the viable frequency range, enabling efficient scavenging of ambient vibrations for powering wireless sensors and low-power electronics.
doi_str_mv	10.1088/1361-665X/ad77ff
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subjects	coupling electromagnetic energy harvesting inertial amplifier pendulums
title	Enhanced vibration energy harvesting from coupled pendulums through inertial amplifiers
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